Abdullah Marashli scite author profile

Abdullah Marashli

5Publications

8Citation Statements Received

44Citation Statements Given

How they've been cited

How they cite others

128

Affiliations

Al-Hussein Bin Talal University

Publications

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Experimental Investigation on Waste Heat Recovery from a Cement Factory to Enhance Thermoelectric Generation

et al. 2022

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This work investigated the potential for waste heat recovery from a cement factory using thermoelectric generation (TEG) technology. Several TEGs were placed on a secondary coaxial shell separated from the kiln shell by an air gap. The performance of the system was tested and evaluated experimentally. Two cooling methods, active water and forced air, were considered. A forced closed-loop water cooling system with a heat exchanger was considered for the active-water cooling method. A heat exchanger was inserted before the water tank to improve cooling efficiency by reducing the inlet temperature of the cooling water tank, in contrast to forced-air cooling, in which a heatsink was used. The obtained results indicated that the closed-loop water-cooled system equipped with a radiator, i.e., active water, has the highest conversion efficiency. The maximum absorbed heat for the forced-air and active-water cooling systems were 265.03 and 262.95 W, respectively. The active-water cooling method improves the power of TEG by 4.4% in comparison with forced-air cooling, while the payback periods for the proposed active-water and forced-air cooling systems are approximately 16 and 9 months, respectively.

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Modelling single-effect of Lithium Bromide-Water (LiBr–H2O) driven by an evacuated solar tube collector in Ma'an city (Jordan) case study

Marashli

Alfanatseh²,

Shalby³

et al. 2022

Case Studies in Thermal Engineering

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Impact of Accumulated Dust on Performance of Two Types of Photovoltaic Cells: Evidence from the South of Jordan

Marashli

Shaba'an

Al-Twaissi

et al. 2022

Int. J. Renew. Energy Dev.

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This paper examines the impact of accumulated dust on two types of photovoltaic (PV) cells in the performance of solar panels facility located in the southern part of Jordan between January to August 2020. To determine the performance of the solar PV panel system, two elements have been considered: sun radiation total efficiency and output power generated from the two types of the PV panel. Results of the study revealed that the mass of dust accumulated on the polycrystalline panel accumulated faster than on the cadmium telluride panel at a rate of 10.5 g/m2 for polycrystalline panels and 8.4g/m2 for cadmium telluride panel. Furthermore, results indicated that the projected drop in the efficiency of washed and unwashed polycrystalline panels decreased monthly by 5% and 16% respectively, while the efficiency of washed and unwashed cadmium telluride panels decreased monthly by 5% and 11.5% respectively. In the same context, results indicated that the wind speed, concentration rate, and relative humidity increased by 3%, 5%, and 8% respectively whereas the ambient temperature decreased by 4% monthly. On the other hand, the size and charge of accumulated dust on the cadmium telluride panel surface were larger than the size and charge of dust on the polycrystalline panel surface with a high percent of (Si) and low percent of (Ca) and (Fe). This research contributes to the literature by providing empirical evidence for the impact of accumulated dust on PV panels applied on a dusty-weather such as the one in the southern part of Jordan.

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Effect of Pyridine and Tribenzylamine on the Hydrolysis Kinetics of Benzoyl Chloride in Water-Dioxane System

Batiha¹,

Chizhova²,

Batiha³

et al. 2017

Asian J. Chem.

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Evaluation of Wind Energy Potential in View of the Wind Speed Parameters – A Case Study for the Southern Jordan

Alsaqoor¹,

Marashli²,

At-Tawarah³

et al. 2022

Adv. Sci. Technol. Res. J.

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In this paper, the potential resources of wind energy were examined, in the case of three diff erent locations in Southern Jordan. On the basis of the collection of wind speed data, this study attempted to estimate the potential wind power. The empirical analysis was conducted using three diff erent numerical approaches: empirical method, energy pattern factor method, and method of the moment. Afterward, the energy yield was evaluated including Weibull parameters, such as shape parameter and scale parameter. The analysis fi ndings helped designate the most prospective locations for developing the strong wind energy potential. The annual mean values of wind speed observed in the typed locations were from 3.9 m/s to 4.9 m/s, and the theoretical wind power density distributions were from 87.6 W/m 2 to 126.8 W/m 2 . The Aqaba area would be the most promising wind power location due to the greatest wind energy potential.

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